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Reversible logic is one of the emerging technologies having promising applications in quantum computing. In this work, we present new design of the reversible BCD adder that has been primarily optimized for the number of ancilla input bits and the number of garbage outputs. The number of ancilla input bits and the garbage outputs is primarily considered as an optimization criteria as it is extremely...
Multiple-valued reversible logic is emerging as a promising computing paradigm as it helps in reducing the width of the reversible or quantum circuits. Further, a barrel shifter that can shift and rotate multiple bits in a single cycle forms the essence of many computing systems. In this paper, we propose an efficient architecture and design of a reversible ternary barrel shifter. The ternary barrel...
Reversible logic is a promising field of research that finds applications in low power computing, quantum computing, optical computing, and other emerging computing technologies. Further, floating point multiplication is one of the major operations in image and digital signal processing applications. The single precision floating-point multiplier requires the design of efficient 24×24 bit integer...
Reversible logic has extensive applications in emerging nanotechnologies, such as quantum computing, optical computing, ultra low power VLSI and quantum dot cellular automata. In the existing literature, designs of reversible sequential circuits are presented that are optimized for the number of reversible gates and the garbage outputs. The optimization of the number of reversible gates is not sufficient...
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